与无耗散的电路类似,电源影响电荷和电流的大小,但不影响电荷和电流的电子涨落。
Similar to the electric circuit without resistance, electric sources affect the amount of the electric charge and current, but do not affect their quantum fluctuations.
目前相应的这一点是需要偏置电流,以及最大耗散将在这一点。
The current corresponding to this point will be the required bias current, and the dissipation will be maximum at that point.
由此关系式可以看出,当电流增加一倍时,器件的功率耗散会增加到4倍。
From this relationship, we see that the power dissipated in the device increases by a factor of four each time the current doubles.
如果这发生得过快或过于突然,则IGBT开关将由于导通瞬间的过度的电流和功率耗散而击穿。
If this happens too soon or too abruptly, the IGBT - switch will break down due to excess current and power dissipation at the moment of switch-on.
介质电导的存在,是由于介质的耗散因子的存在,使得再高频下,传输线存在漏电流。
In high frequency, it also have conductance at dielectric material due to dissipation factor of the dielectric material causing the current leakage.
如果负载被连接到电流源,则电流流经负载并耗散功率。
If a load is connected to the current source, current flows through the load and power is dissipated.
通过正则化变换 ,研究了耗散介观电容耦合电路的量子化 ,并讨论了系统中电荷和广义电流的量子涨落 。
The quantization of a general mesoscopic RLC circuit with source by series-mounting is studied by using a new canonical transformation satisfied condition.
通过正则化变换 ,研究了耗散介观电容耦合电路的量子化 ,并讨论了系统中电荷和广义电流的量子涨落 。
The quantization of a general mesoscopic RLC circuit with source by series-mounting is studied by using a new canonical transformation satisfied condition.
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